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Quadrotech Archive Shuttle 10.7 - SQL Best Practices

Confirguration requirements for a large migration

The table below indicates the requirements for SQL Server for a large Archive Shuttle migration (more than 20 Tb).



Processors (cores)

Minimum 16, Recommended 32


Minimum 64 GB, Recommended 128 GB

Hard disk

Disks should be configured as per Microsoft SQL Server best practies with TempDB, databases and logs on separate disks.


Not normally supported. Contact Quest if virtualization is the only possibility.

Archive Shuttle keeps track of every item it exports/imports for auditing purposes. It places a reliance on SQL Server for this task. An adequately prepared SQL Server that meets the recommended specification is essential for a fast migration. Ensuring that an adequately prepared SQL Server which meets the recommended specification is essential for a fast migration.


NOTE: Performance of the migration will be impacted if the SQL Server environment is not sufficient for the needs of the migration.


We recommend that Archive Shuttle SQL servers run a single SQL Server instance only, with no other applications or services running on the servers. SQL Server needs to fully utilize the server resources, and another application may introduce contention issues that will result in undesirable performance.

CPU considerations

The power of a server is not necessarily determined by the CPU speed in terms of cycles per second. Factors such as the server architecture and number and type of processors and cores can provide a far greater benefit over increasing CPU speed.

Hyper-threading technology is said to provide up to 30% improvement in performance. These processors contain two architectural states on a single processor core, making each physical processor act as two logical processors. However, the two logical processors must share the execution resources of the processor core, so performance gains may not be attained and in some circumstances can even lead to degradation of performance.

Multi-core technology provides similar performance to a comparable multi-CPU server. These processors contain multiple complete processor cores, which act as complete physical processors. Each physical core has its own architectural state and its own execution resources, so the performance gains are reliable.

With the ever-increasing number of processor core combinations and high clock speeds, the traditional x86 Front Side Bus architecture can start to become a bottleneck beyond eight processor cores. A popular and cost-effective method of scaling up the x86 architecture is to use an architecture that supports non-uniform memory access (NUMA). Processors and memory are grouped into nodes that have high-speed local access. However, access to memory co-located with other processor nodes is slower. Therefore, the operating system (and potentially application software) needs to be NUMA-aware and optimized to make the best use of processors, cores, and their associated resources. Windows server and SQL Server support NUMA.


NOTE: See the Microsoft TechNet article “How SQL Server supports NUMA”.

The recommended number of processor cores can be composed of either physical CPUs or similar combination of multi-core CPUs, but the sizing should not be based on hyper-threaded logical cores.


CAUTION: Hyper-threading is not recommended to improve the database performance due to potential performance problems when the database places a load on the memory. See the Microsoft Knowledge Base article 322385 and the MSDN article “Be aware: To Hyper or not to Hyper” for further information. If hyper-threading is to be used, particular attention should be paid to the MAXDOP setting as described in KB322385.

In most cases, the SQL Server instance should manage the CPU resources. Do not set the CPU affinity mask unless absolutely necessary, as this can significantly impact the performance. When running multiple SQL Server instances, the most common reason for setting the CPU affinity mask is to prevent an instance being starved of resources.

Memory considerations

The recommended memory should be available at each SQL Server instance to ensure the data manipulation does not cause excessive paging to disk both in the Archive Shuttle databases and tempdb, which will quickly degrade performance.

Install the appropriate edition of Windows Server and SQL Server to support the capacity of memory that is installed. See the Archive Shuttle compatibility charts for supported versions of SQL Server.

Under normal circumstances, SQL Server should be allowed to manage memory dynamically. It may be necessary to change the SQL Server minimum and maximum memory to ensure the memory is used appropriately between SQL Server instances, Reporting services or other co-located services.

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